EC:3.4.21.1 - FACTA Search

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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A series of renin inhibitors have been prepared and evaluated for their susceptibility to cleavage by the serine protease chymotrypsin. The compounds were designed by consideration of the structural requirements in the active-site region of renin and chymotrypsin. By systematic alteration of the P3 phenylalanine residue, compounds with varying degrees of renin inhibitory potency and chymotrypsin susceptibility were obtained. Selected analogues from this group were examined in vivo for both their hypotensive effects and metabolic patterns.
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PMID:Renin inhibitors. Dipeptide analogues of angiotensinogen utilizing a structurally modified phenylalanine residue to impart proteolytic stability. 314 10

Incubation at 37 degrees C of human cationic trypsinogen purified by PAGE electrophoresis, results in development of proteolytic activity (enzyme Y) capable of rapidly degrading cationic and anionic trypsinogens to inert products. Enzyme Y appears to be a serine protease with a molecular weight of about 20,000 daltons and is different from any of the known pancreatic enzymes. The active enzyme may be derived from trypsinogen itself or a hitherto unrecognized precursor contaminating the trypsinogen fraction used in this work. Appearance of enzyme Y activity seems to be associated with the presence of traces of free trypsin. Enzyme Y possesses insignificant or no activity when tested with a variety of synthetic trypsin, chymotrypsin and other protease substrates. It is not inactivated by the specific trypsin and chymotrypsin inhibitors TLCK and TPCK, but its activity is reduced gradually by increasing concentrations of pancreatic secretory trypsin inhibitor. Ca2+ concentrations greater than 3 mM strongly inhibit enzyme Y, and diisopropylfluorophosphate completely inactivates it. The enzyme is stable when incubated at pH 1.9 and 37 degrees C for 30 min and its activity is not abolished by treatment with Hg2+. When added to pancreatic juice with low inhibitor content it causes rapid inactivation of zymogens without significant release of active enzymes or reduction of pancreatic trypsin inhibitor. Its physiological role may be perceived as a second line of defense against premature intrapancreatic activation of zymogens. Enzyme Y activity may be generated when trypsin inhibitor, the first line of defense, is sufficiently depleted by complex formation with inappropriately released trypsin to permit dissociation of a small amount of trypsin from this complex. This in turn may lead to activation of enzyme Y and inactivation of the zymogens of pancreatic proteases.
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PMID:A possible zymogen self-destruct mechanism preventing pancreatic autodigestion. 316 6

The structure of rat mast cell protease II (RMCP II), a serine protease with chymotrypsin-like primary specificity, has been determined to a nominal resolution of 1.9 A by single isomorphous replacement, molecular replacement, and restrained crystallographic refinement to a final R-factor of 0.191. There are two independent molecules of RMCP II in the asymmetric unit of the crystal. The rms deviation from ideal bond lengths is 0.016 A and from ideal bond angles is 2.7 degrees. The overall structure of RMCP II is extremely similar to that of chymotrypsin, but the largest differences between the two structures are clustered around the active-site region in a manner which suggests that the unusual substrate specificity of RMCP II is due to these changes. Unlike chymotrypsin, RMCP II has a deep cleft around the active site. An insertion of three residues between residues 35 and 41 of chymotrypsin, combined with concerted changes in sequence and a deletion near residue 61, allows residues 35-41 of RMCP II to adopt a conformation not seen in any other serine protease. Additionally, the loss of the disulfide bridge between residues 191 and 220 of chymotrypsin leads to the formation of an additional substrate binding pocket that we propose to interact with the P3 side chain of bound substrate. RMCP II is a member of a homologous subclass of serine proteases that are expressed by mast cells, neutrophils, lymphocytes, and cytotoxic T-cells. Thus, the structure of RMCP II forms a basis for an explanation of the unusual properties of other members of this class.
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PMID:The structure of rat mast cell protease II at 1.9-A resolution. 323 98

We have found that degranulation from mast cells is specifically inhibited by the inhibitors of chymase (10). Among the natural serine protease inhibitors tested, Bowman-Birk soybean protease inhibitor, Eglin C, and human alpha 1-antichymotrypsin inhibited chymase more strongly than did chymostatin, Kunitz soybean protease inhibitor, and phosphatidylserine. Of the inhibitors tested, Bowman-Birk soybean protease inhibitor was the strongest inhibitor of chymase, its Ki value being 13.2 X 10(-9) M. Kinetic studies showed that these inhibitors were all noncompetitive inhibitors of chymase. Bowman-Birk and Kunitz soybean protease inhibitors inhibited both chymotrypsin-type and trypsin-type serine proteases but Eglin C specifically inhibited chymotrypsin-type proteases.
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PMID:Kinetic studies on the inhibitions of mast cell chymase by natural serine protease inhibitors: indications for potential biological functions of these inhibitors. 347 19

Induction of a microsomal Ca2+-dependent serine protease by hepatic tumor promoters was studied. Male F344 rats were fed a diet containing one of the following promoting agents: phenobarbital (CAS: 50-06-6), dichlorophenyltrichloroethane (CAS: 50-29-3), butylated hydroxytoluene, ethyl-alpha-chlorophenoxyisobutyrate (CAS: 128-95-0), or 17-alpha-ethynylestradiol (CAS: 57-63-6) or a nonpromoting agent, diphenylhydantoin (CAS: 57-41-0), for 1 week. By treatment with promoters, the protease activity in the microsomal fraction was increased to threefold to fivefold that of control, whereas only a slight increase of activity was found after diphenylhydantoin treatment. The Ca2+-dependent protease activity was determined with the use of N-benzoyl-L-tyrosine ethyl ester as the substrate in a medium containing 50 mM CaCl2 for its maximal activity. This protease was preferentially localized in the smooth microsomal membrane and strongly inhibited by diisopropyl phosphorofluoridate (CAS: 55-91-4), and the optimum pH of the activity was 7.8. It appears that the Ca2+-dependent serine protease measured by using a chymotrypsin substrate is a novel protease, and induction of its activity by hepatic tumor-promoting agents is a common and specific phenomenon.
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PMID:Induction of a novel Ca2+-dependent chymotrypsin-like serine protease by tumor promoters in rat livers. 352 96

We report here by using stopped-flow fluorometry with three different fluorescent probes that a serine protease triggers the initial step of transmembrane signalling in cytotoxic T cells. When cytotoxic T cells (mouse LC7, H-2b anti H-2d) bound to the specific target cells (mouse mastocytoma P815, H-2d), cytotoxic T cells first increased their membrane fluidity, and calcium then was released from intracellular stores. After that, there was a calcium influx from the external medium into the T cells. All of these steps, however, were blocked by serine protease inhibitors (soybean trypsin inhibitor, N alpha-p-tosyl-L-lysine chloromethyl ketone and tosylphenylalanyl chloromethyl ketone). Bovine pancreatic trypsin and chymotrypsin in the external medium mimicked the signalling events which were triggered by the serine protease on the T cell surfaces. From the reaction time (within 1 s) and its specificity, this serine protease in cytotoxic T cells was considered to be different from a protease which works at the killing stage.
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PMID:A serine protease triggers the initial step of transmembrane signalling in cytotoxic T cells. 353 28

The substrate specificity of rat mast cell protease I (RMCP I), a chymotrypsin-like serine protease localized in the secretory granules of mast cells, was compared to that of bovine alpha-chymotrypsin by using several peptide and protein substrates of known amino acid sequences. Although the overall specificities of the two proteases appeared similar, subtle but significant differences were observed. RMCP I was more prone than chymotrypsin to hydrolyze peptide bonds consisting of Leu-Xaa or two hydrophobic residues--e.g., Phe-Phe. Additionally, the hydrolysis of angiotensin I catalyzed by chymotrypsin, but not by RMCP I, resulted in the generation of angiotensin II as an intermediate product. In contrast to the solubilized enzyme, the RMCP I activity within the insoluble granules was completely stable for at least 2 months in suitable buffers at pH 8.0 or pH 7.2, at 4 degrees C. Carboxypeptidase A activity associated with isolated mast cell granules was completely inhibited by 10 mM o-phenanthroline. Polypeptides smaller than apomyoglobin (17,199 Da) were rapidly hydrolyzed by granule-bound RMCP I, whereas apomyoglobin and other larger proteins were not hydrolyzed. In contrast, the free protease readily hydrolyzed the larger proteins. Neither normal rat serum nor alpha 1-antitrypsin, both of which inhibited the activity of free RMCP I, was effective in inhibiting granule-associated RMCP I. The results indicate that granule-bound RMCP I is not released into solution from isolated secretory granules under physiological conditions of ionic strength and pH and that the granule structure limits the size of proteins that can be hydrolyzed by the protease.
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PMID:Substrate specificity of the chymotrypsin-like protease in secretory granules isolated from rat mast cells. 354 Sep 62

An irreversible inhibitor (L-1-tosylamide-2-phenylethyl-chloromethylketone) and substrate (N-acetyl-L-tyrosineethylester) of the neutral serine protease chymotrypsin were evaluated for their effects on the natural killer cell lytic reaction sequence. During direct cell-mediated cytolysis these inhibitors had no effect on natural killer cell binding to target cells but were able to inhibit the "trigger" mechanism which initiates killing. In addition, they inhibited later calcium-dependent events in the lytic reaction and killer cell-independent lysis. These findings suggest that serine proteases may be required during several stages of natural killer cell lysis, including calcium-dependent programming as well as the actual lethal hit.
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PMID:Evidence for involvement of serine proteases in the late stages of the natural killer cell lytic reaction. 354 37

We have shown that cytosol samples from human leukemia cells frequently contain glucocorticoid receptor fragments that have a mol wt (Mr) of approximately 52,000. In the present study we demonstrate that the Mr approximately 52,000-receptor fragments are derived from intact glucocorticoid receptors (Mr approximately 97,000) by the action of a serine protease. Mr approximately 52,000-receptor fragments were present in cytosol from 24 of 52 leukemia cell samples. Only normal size glucocorticoid receptors were present in cytosol samples if diisopropylfluorophosphate (DFP), a potent inhibitor of serine proteases, was added to the hypotonic buffer used for cytosol preparation. Receptor proteolysis was not inhibited by hydrolyzed DFP, benzamidine, phenylmethylsulfonylfluoride, aprotinin, iodoacetamide, or mercuric chloride. The leukemia cell protease digests the receptor at a different site than chymotrypsin, which digests the intact receptor to produce a Mr approximately 40,000 receptor fragment. Receptor messenger RNA (mRNA) in S49 mouse lymphoma cells and in human leukemia cells was analyzed by Northern hybridization with a cDNA for the normal glucocorticoid receptor. Mutant S49 mouse lymphoma cells that have abnormally small glucocorticoid receptors (Mr approximately 48,000) make a 5.0-kilobase receptor transcript in addition to the normal size 6.5-kilobase receptor transcript. A normal size receptor transcript of 6.5 kilobases was present in all of the human leukemia cells whether or not Mr approximately 52,000-receptor fragments were present. Therefore, abnormalities of glucocorticoid receptor mRNA, which may give rise to the synthesis of foreshortened receptors in certain mutant mouse lymphoma cells, are apparently absent from human leukemia cells.
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PMID:Characterization of glucocorticoid receptors and glucocorticoid receptor mRNA in human leukemia cells: stabilization of the receptor by diisopropylfluorophosphate. 354 20

Chromophoric [4-(dimethylamino)cinnamoyl]imidazole reacts with the serine protease alpha-chymotrypsin to form an acyl enzyme. At pHs below 4.0, the acyl enzyme turns over very slowly to yield the free acid. During this slow deacylation it is possible to obtain a very good resonance Raman spectrum of the acyl intermediate by using the 350.7-nm line of the krypton laser. The resonance Raman carbonyl frequency of the covalently bonded substrate and its wavelength at maximum intensity in the absorption spectrum of the acyl enzyme have been taken and used to monitor the active site environment. A comparison has been made of the absorption and Raman spectra of the acyl enzyme and those of the corresponding chromophoric methyl ester, aldehyde, and imidazole model compounds. A linear correlation is found between the wavelength of maximum absorption and the Raman frequency of the carbonyl group over a wide range of solvent conditions for each of the model compounds. By combining the Raman carbonyl frequency with the absorption maximum, we can determine that the bond order changes in the carbonyl bond of the bound substrate are not due to changes in the solvent, since the carbonyl frequency and the absorption maximum of the acyl enzyme do not fall on any of the linear correlations for the model compounds. The unusual spectroscopic properties of the bound substrate appear to be due to some specific enzyme-induced change in the substrate when it is bound at the active site. Thermal unfolding of the acyl enzymes changes both the carbonyl frequency of the acyl enzyme and its absorption maximum to completely different values.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chromophoric cinnamic acid substrates as resonance Raman probes of the active site environment in native and unfolded alpha-chymotrypsin. 370 18

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